A Novel Steady-State Visually Evoked Potential-Based Brain-Computer-Interface Paradigm to Steer a Humanoid Robot

机译：一种新颖的稳态视觉诱发电位的脑-计算机-界面范式来操纵人形机器人

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In this paper, a brain-computer interface (BCI) system based on steady-state visually evoked EEG potentials (SSVEP) has been presented to steer a NAO humanoid robot, in which a novel robot control paradigm with two-layer-interface was designed and implemented. The scene captured from robot camera was divided into different target regions and displayed to the human subjects with extra visual stimulus superposed on it to reduce the influence of dynamic background scene and the side-effect of gaze shift. The visually evoked potentials was captured from the subjects' EEG signals to accomplish the directions selection mission and to control the NAO robot's movements towards the target region. All the subjects could complete the mission using our BCI paradigm in the real-world environment. The results showed the feasibility of our BCI paradigm in brain-actuated robot control.

机译：本文提出了一种基于稳态视觉诱发脑电势（SSVEP）的脑机接口（BCI）系统来引导NAO人形机器人，其中设计了一种具有两层接口的新型机器人控制范例并实施。从机器人摄像机捕获的场景被划分为不同的目标区域，并通过叠加在其上的额外视觉刺激显示给人类对象，以减少动态背景场景的影响和凝视转移的副作用。从受试者的脑电信号中捕获视觉诱发的电位，以完成方向选择任务并控制NAO机器人向目标区域的移动。所有受试者都可以在现实环境中使用BCI范例完成任务。结果显示了我们的BCI范例在脑动机器人控制中的可行性。

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《International Conference on Instrumentation and Measurement, Computer, Communication and Control》|2014年|774-778|共5页
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Nannan Zhang; Jun Jiang; Jingsheng Tang; Zongtan Zhou; Dewen Hu;
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brain-computer interfaces; cameras; electroencephalography; humanoid robots; image capture; legged locomotion; motion control; robot vision; signal processing; BCI system; EEG signals; NAO humanoid robot steering; NAO robot movement control; SSVEP; brain-actuated robot control; brain-computer interface system; direction selection mission; dynamic background scene influence reduction; gaze shift side-effect; human subjects; real-world environment; robot camera; scene capture; steady-state visually evoked EEG potentials; steady-state visually evoked potential-based brain-computer-interface paradigm; target regions; two-layer-interface; visual stimulus; Accuracy; Cameras; Electroencephalography; Humanoid robots; Legged locomotion; Robot vision systems; BCI; SSVEP; humanoid robot;

机译：脑机接口;相机;脑电图;人形机器人;图像捕捉;腿运动;运动控制;机器人视觉;信号处理; BCI系统; EEG信号; NAO人形机器人转向; NAO机器人运动控制; SSVEP;脑动机器人控制;人机界面系统;方向选择任务;动态背景场景影响降低;注视位移副作用;人体;真实环境;机器人摄像机;场景捕捉;稳态视觉诱发脑电图;稳态视觉诱发基于势能的脑机接口范式;目标区域;两层接口;视觉刺激;精度;相机;脑电图;类人机器人;有腿运动;机器人视觉系统; BCI; SSVEP;类人机器人;

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1. Modular-neural-network-based Decision Fusion for Steady-state Visually Evoked Potential-based Brain-Computer Interfaces [J] . Yeou-Jiunn Chen, Shih-Chung Chen, Chung-Min Wu Sensors and materials . 2020,第9期

机译：基于稳态视觉诱发潜在脑电脑接口的模块化 - 神经网络基于网络的决策融合
2. A novel steady-state visually evoked potential-based brain-computer interface design: Character Plotter [J] . Zafer Iscan, Zuemray Dokur Biomedical signal processing and control . 2014,第mara期

机译：一种新颖的基于视觉的诱发电位稳态脑计算机接口设计：字符绘图仪
3. Steady-state visually evoked potentials: focus on essential paradigms and future perspectives. [J] . Vialatte FB, Maurice M, Dauwels J, Progress in Neurobiology: An International Review Journal . 2010,第4期

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4. A Novel Steady-State Visually Evoked Potential-Based Brain-Computer-Interface Paradigm to Steer a Humanoid Robot [C] . Nannan Zhang, Jun Jiang, Jingsheng Tang, International Conference on Instrumentation and Measurement, Computer, Communication and Control . 2014

机译：一种新型稳态视觉诱发的基于潜在的大脑 - 计算机接口范式，以引导人形机器人
5. Steady-state Visually Evoked Potentials: Improving Experimental Design and Identifying Sources of Variability. [D] . Head, Austin Louis. 2016

机译：稳态视觉诱发电位：改进实验设计并确定变化的来源。
6. Design of Wearable Headset with Steady State Visually Evoked Potential-Based Brain Computer Interface [O] . Bor-Shyh Lin, Bor-Shing Lin, Tzu-Hsiang Yen, 2019

机译：稳态视觉诱发电位脑计算机接口的可穿戴式耳机设计
7. Modular-neural-network-based Decision Fusion for Steady-state Visually Evoked Potential-based Brain–Computer Interfaces [O] . Yeou-Jiunn Chen, Shih-Chung Chen, Chung-Min Wu 2020

机译：基于稳态视觉诱发潜在脑电脑接口的模块化 - 神经网络基于网络的决策融合

A Novel Steady-State Visually Evoked Potential-Based Brain-Computer-Interface Paradigm to Steer a Humanoid Robot

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